2010
DOI: 10.1051/0004-6361/200912952
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H Lymanαline in Jovian aurorae: electron transport and radiative transfer coupled modelling

Abstract: Aims. The aim of this work is to characterize the impact of the solar UV flux and of the electron precipitation on Jupiter's atmosphere and to study the H Lyman α intensity and spectral profile in Jupiter's aurorae. In particular we characterize the sensitivity of the line to the relevant input parameters. Methods. We use a multi-stream electron transport code solving the 1D Boltzmann equation and a Feautrier technique radiative transfer code. Results. We calculate ionization rate profiles of the main species … Show more

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Cited by 22 publications
(28 citation statements)
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“…We use the TRANS-* family of codes adapted to Earth , Venus (Gronoff et al, , 2008, Mars (Simon et al, 2009), Titan (Lilensten et al, 2005;) and Jupiter (Ménager et al, 2010) as discussed below. The TRANS-* codes solve the 1-D kinetic transport Boltzmann equation for suprathermal electrons including updated elastic, ionisation, excitation and dissociative cross sections.…”
Section: Motivationmentioning
confidence: 99%
“…We use the TRANS-* family of codes adapted to Earth , Venus (Gronoff et al, , 2008, Mars (Simon et al, 2009), Titan (Lilensten et al, 2005;) and Jupiter (Ménager et al, 2010) as discussed below. The TRANS-* codes solve the 1-D kinetic transport Boltzmann equation for suprathermal electrons including updated elastic, ionisation, excitation and dissociative cross sections.…”
Section: Motivationmentioning
confidence: 99%
“…Fig. 3 Comparison of the profile in altitude of the electron production rate at Jupiter between the models of Grodent et al (2001) [Gr01], Hiraki and Tao (2008) [HT08], Menager et al (2010) [Me10] and Galand et al (2011) [Ga11]. The incident electron energy distribution is a triple Maxwellian applied to discrete aurora as defined by Grodent et al (2001).…”
Section: Electron Production Ratementioning
confidence: 99%
“…For most of the simulations a double Gaussian intensity is used as in Menager et al (2010). If we consider that the upper atmospheric temperature is much lower than the emission temperature of the stellar line (around 30,000 K for the center of the line and between 4000 and 7000 K for the line wings; Vernazza et al 1981), only the center of the line is scattered by the planetary atmosphere.…”
Section: Optically Thick Cases: Example Of the Planetary H-lyman A Emmentioning
confidence: 99%
“…We used the radiative transfer code mentioned in Barthélemy et al (2005) and Menager et al (2010). In these studies, the Lyman a line is used as a diagnostic tool for the upper atmospheres.…”
Section: Optically Thick Cases: Example Of the Planetary H-lyman A Emmentioning
confidence: 99%
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